// SPDX-License-Identifier: Apache-2.0

package chisel3.util.experimental

import chisel3._
import chisel3.experimental.{RunFirrtlTransform, annotate, ChiselAnnotation}
import firrtl.annotations._
import firrtl.ir.{Module => _, _}
import firrtl.transforms.BlackBoxInlineAnno
import firrtl.Mappers._
import firrtl.{AnnotationSeq, CircuitForm, CircuitState, EmitCircuitAnnotation, LowForm, Transform, VerilogEmitter}

import scala.collection.mutable

/** This is the annotation created when using [[loadMemoryFromFile]], it records the memory, the load file
  * and the format of the file.
  * @param target        memory to load
  * @param fileName      name of input file
  * @param hexOrBinary   use \$readmemh or \$readmemb, i.e. hex or binary text input, default is hex
  */
case class ChiselLoadMemoryAnnotation[T <: Data](
  target:      MemBase[T],
  fileName:    String,
  hexOrBinary: MemoryLoadFileType.FileType = MemoryLoadFileType.Hex
)
  extends ChiselAnnotation with RunFirrtlTransform {

  if(fileName.isEmpty) {
    throw new Exception(
      s"""LoadMemory from file annotations file empty file name"""
    )
  }

  def transformClass: Class[LoadMemoryTransform] = classOf[LoadMemoryTransform]

  def toFirrtl: LoadMemoryAnnotation = {
    val tx = target.toNamed.asInstanceOf[ComponentName]
    LoadMemoryAnnotation(tx, fileName, hexOrBinary, Some(tx.name))
  }
}


/** [[loadMemoryFromFile]] is an annotation generator that helps with loading a memory from a text file as a bind module. This relies on
  * Verilator and Verilog's `\$readmemh` or `\$readmemb`. The [[https://github.com/freechipsproject/treadle Treadle
  * backend]] can also recognize this annotation and load memory at run-time.
  *
  * This annotation, when the FIRRTL compiler runs, triggers the [[LoadMemoryTransform]]. That will add Verilog
  * directives to enable the specified memories to be initialized from files.
  *
  * ==Example module==
  *
  * Consider a simple Module containing a memory:
  * {{{
  * import chisel3._
  * class UsesMem(memoryDepth: Int, memoryType: Data) extends Module {
  *   val io = IO(new Bundle {
  *     val address = Input(UInt(memoryType.getWidth.W))
  *     val value   = Output(memoryType)
  *   })
  *   val memory = Mem(memoryDepth, memoryType)
  *   io.value := memory(io.address)
  * }
  * }}}
  *
  * ==Above module with annotation==
  *
  * To load this memory from the file `/workspace/workdir/mem1.hex.txt` just add an import and annotate the memory:
  * {{{
  * import chisel3._
  * import chisel3.util.experimental.loadMemoryFromFile   // <<-- new import here
  * class UsesMem(memoryDepth: Int, memoryType: Data) extends Module {
  *   val io = IO(new Bundle {
  *     val address = Input(UInt(memoryType.getWidth.W))
  *     val value   = Output(memoryType)
  *   })
  *   val memory = Mem(memoryDepth, memoryType)
  *   io.value := memory(io.address)
  *   loadMemoryFromFile(memory, "/workspace/workdir/mem1.hex.txt")  // <<-- Note the annotation here
  * }
  * }}}
  *
  * ==Example file format==
  *
  * A memory file should consist of ASCII text in either hex or binary format. The following example shows such a
  * file formatted to use hex:
  * {{{
  *   0
  *   7
  *   d
  *  15
  * }}}
  *
  * A binary file can be similarly constructed.
  *
  * @see
  * [[https://github.com/freechipsproject/chisel3/tree/master/src/test/scala/chiselTests/LoadMemoryFromFileSpec.scala
  * LoadMemoryFromFileSpec.scala]] in the test suite for additional examples.
  * @see Chisel3 Wiki entry on
  * [[https://github.com/freechipsproject/chisel3/wiki/Chisel-Memories#loading-memories-in-simulation "Loading Memories
  * in Simulation"]]
  */
object loadMemoryFromFile {


  /** Annotate a memory such that it can be initialized using a file
    * @param memory the memory
    * @param filename the file used for initialization
    * @param hexOrBinary whether the file uses a hex or binary number representation
    */
  def apply[T <: Data](
    memory: MemBase[T],
    fileName: String,
    hexOrBinary: MemoryLoadFileType.FileType = MemoryLoadFileType.Hex
  ): Unit = {
    annotate(ChiselLoadMemoryAnnotation(memory, fileName, hexOrBinary))
  }
}


/** [[loadMemoryFromFileInline]] is an annotation generator that helps with loading a memory from a text file inlined in
  * the Verilog module. This relies on Verilator and Verilog's `\$readmemh` or `\$readmemb`.
  * The [[https://github.com/freechipsproject/treadle Treadlebackend]] can also recognize this annotation and load memory at run-time.
  *
  * This annotation, when the FIRRTL compiler runs, triggers the [[MemoryFileInlineAnnotation]] that will add Verilog
  * directives inlined to the module enabling the specified memories to be initialized from files.
  * The module supports both `hex` and `bin` files by passing the appropriate [[MemoryLoadFileType.FileType]] argument with
  * [[MemoryLoadFileType.Hex]] or [[MemoryLoadFileType.Binary]]. Hex is the default.
  *
  * ==Example module==
  *
  * Consider a simple Module containing a memory:
  * {{{
  * import chisel3._
  * class UsesMem(memoryDepth: Int, memoryType: Data) extends Module {
  *   val io = IO(new Bundle {
  *     val address = Input(UInt(memoryType.getWidth.W))
  *     val value   = Output(memoryType)
  *   })
  *   val memory = Mem(memoryDepth, memoryType)
  *   io.value := memory(io.address)
  * }
  * }}}
  *
  * ==Above module with annotation==
  *
  * To load this memory from the file `/workspace/workdir/mem1.hex.txt` just add an import and annotate the memory:
  * {{{
  * import chisel3._
  * import chisel3.util.experimental.loadMemoryFromFileInline   // <<-- new import here
  * class UsesMem(memoryDepth: Int, memoryType: Data) extends Module {
  *   val io = IO(new Bundle {
  *     val address = Input(UInt(memoryType.getWidth.W))
  *     val value   = Output(memoryType)
  *   })
  *   val memory = Mem(memoryDepth, memoryType)
  *   io.value := memory(io.address)
  *   loadMemoryFromFileInline(memory, "/workspace/workdir/mem1.hex.txt")  // <<-- Note the annotation here
  * }
  * }}}
  *
  * ==Example file format==
  *
  * A memory file should consist of ASCII text in either hex or binary format. The following example shows such a
  * file formatted to use hex:
  * {{{
  *   0
  *   7
  *   d
  *  15
  * }}}
  *
  * A binary file can be similarly constructed.
  * Chisel does not validate the file format or existence. It is supposed to be in a path accessible by the synthesis
  * tool together with the generated Verilog.
  *
  * @see Chisel3 Wiki entry on
  * [[https://github.com/freechipsproject/chisel3/wiki/Chisel-Memories#loading-memories-in-simulation "Loading Memories
  * in Simulation"]]
  */
object loadMemoryFromFileInline {


  /** Annotate a memory such that it can be initialized inline using a file
    * @param memory the memory
    * @param fileName the file used for initialization
    * @param hexOrBinary whether the file uses a hex or binary number representation
    */
  def apply[T <: Data](
    memory: MemBase[T],
    fileName: String,
    hexOrBinary: MemoryLoadFileType.FileType = MemoryLoadFileType.Hex
  ): Unit = {
    annotate(new ChiselAnnotation {
      override def toFirrtl = MemoryFileInlineAnnotation(memory.toTarget, fileName, hexOrBinary)
    })
  }
}

/** This transform only is activated if Verilog is being generated (determined by presence of the proper emit
  * annotation) when activated it creates additional Verilog files that contain modules bound to the modules that
  * contain an initializable memory
  *
  * Currently the only non-Verilog based simulation that can support loading memory from a file is treadle but it does
  * not need this transform to do that.
  */
class LoadMemoryTransform extends Transform {
  def inputForm: CircuitForm  = LowForm
  def outputForm: CircuitForm = LowForm

  private var memoryCounter: Int = -1

  private val bindModules: mutable.ArrayBuffer[BlackBoxInlineAnno] = new mutable.ArrayBuffer()

  private val verilogEmitter:    VerilogEmitter = new VerilogEmitter

  /** run the pass
    * @param circuit the circuit
    * @param annotations all the annotations
    * @return
    */
  def run(circuit: Circuit, annotations: AnnotationSeq): Circuit = {
    val groups = annotations
      .collect{ case m: LoadMemoryAnnotation => m }
      .groupBy(_.target.serialize)
    val memoryAnnotations = groups.map { case (key, annos) =>
        if (annos.size > 1) {
          throw new Exception(
            s"Multiple (${annos.size} found for memory $key one LoadMemoryAnnotation is allowed per memory"
          )
        }
        key -> annos.head
      }

    val modulesByName = circuit.modules.collect { case module: firrtl.ir.Module =>  module.name -> module }.toMap

    /* Walk the module and for memories that are annotated with [[LoadMemoryAnnotation]]s generate the bindable modules for
     * Verilog emission.
     * @param myModule module being searched for memories
     */
    def processModule(myModule: DefModule): DefModule = {

      def makePath(componentName: String): String = {
        circuit.main + "." + myModule.name + "." + componentName
      }

      def processMemory(name: String): Unit = {
        val fullMemoryName = makePath(s"$name")

        memoryAnnotations.get(fullMemoryName) match {
          case Some(lma @ LoadMemoryAnnotation(ComponentName(componentName, moduleName), _, hexOrBinary, _)) =>
            val writer = new java.io.StringWriter
            val readmem = hexOrBinary match {
              case MemoryLoadFileType.Binary => "$readmemb"
              case MemoryLoadFileType.Hex => "$readmemh"
            }

            modulesByName.get(moduleName.name).foreach { module =>
                val renderer = verilogEmitter.getRenderer(module, modulesByName)(writer)
                val loadFileName = lma.getFileName

                memoryCounter += 1
                val bindsToName = s"BindsTo_${memoryCounter}_${moduleName.name}"
                renderer.emitVerilogBind(bindsToName,
                  s"""
                     |initial begin
                     |  $readmem("$loadFileName", ${myModule.name}.$componentName);
                     |end
                      """.stripMargin)
                val inLineText = writer.toString + "\n" +
                  s"""bind ${myModule.name} $bindsToName ${bindsToName}_Inst(.*);"""

                val blackBoxInline = BlackBoxInlineAnno(
                  moduleName,
                  moduleName.serialize + "." + componentName + ".v",
                  inLineText
                )

                bindModules += blackBoxInline
              }

          case _ =>
        }
      }

      def processStatements(statement: Statement): Statement = {
        statement match {
          case m: DefMemory          => processMemory(m.name)
          case s                     => s map processStatements
        }
        statement
      }

      myModule match {
        case module: firrtl.ir.Module =>
          processStatements(module.body)
        case _ =>
      }

      myModule
    }

    circuit map processModule
  }

  def execute(state: CircuitState): CircuitState = {
    val isVerilog = state.annotations.exists {
      case EmitCircuitAnnotation(emitter) =>
        emitter == classOf[VerilogEmitter]
      case _ =>
        false
    }
    if(isVerilog) {
      run(state.circuit, state.annotations)
      state.copy(annotations = state.annotations ++ bindModules)
    }
    else {
      state
    }
  }
}
